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What separates Aave from traditional lending and borrowing is that all aspects of Aaves operations are dictated by code. In its most basic application, Aave offers a first principles approach to increasing the productivity of digital assets. Aave connects users seeking a source of passive income or yield from their digital asset holdings with those seeking accessible and affordable liquidity.

Smart contracts govern the platforms operations, including making funds readily available to borrow, determining interest rates, and maintaining and liquidating collateral when necessary. By removing intermediaries from the process, lending and borrowing can become highly cost-effective, credit risk-minimized, and globally accessible.

Aave dates to 2017, when it was called ETHLend and when DeFi was largely conceptual. Developed by Stani Kulechov and his team, ETHLend introduced basic rules-based lending and borrowing systems governed by smart contracts. The protocol connected users on the Ethereum network and allowed them to issue and take loans of ETH against one another. Its native asset, LEND, raised $16.2 million in an initial coin offering (ICO).1

ETHLend transitioned to Aave in January 2020, and users were able to swap LEND for the AAVE token on a 100:1 basis. The first version of the Aave protocol changed how users lend and borrow in DeFi, shifting from direct loans between lenders and borrowers to a pool-based strategy.2 Aaves pools are smart contracts containing loaned assets which borrowers can draw from by putting up collateral and paying interest.

Lending in Aave is as simple as depositing one of the 30+ supported assets into a liquidity pool. In exchange, depositors receive aTokens which represent a pro-rata share of the pools deposited liquidity and which serve as a receipt for lenders claims to their principal and any accrued interest. For example, a lender depositing ETH to a pool will receive aETH in return.3 aTokens increase in value proportionately to the interest accrued by the pool. To redeem loaned assets and the accrued interest from the pool, lenders burn their aTokens and receive the corresponding amount of value in return. The process can be thought of in a similar manner to cashing a check at the bank. A check represents a claim to some amount of value. When a check is cashed, funds are transferred and the check no longer represents a valid claim.

Users can borrow funds from liquidity pools in exchange for an interest rate when they deposit collateral. The amount of collateral required is pool-dependent, but it must always exceed the value of the assets borrowed. Only specific low-risk digital assets such as stablecoins, BTC, and ETH are accepted as collateral. Aave offers maximum flexibility for loan repayment, allowing users to fully or partially repay loans at any time.

In traditional lending and borrowing, an inherent risk is that borrowers may not be able to pay back their loans, leading to bad debt. While credit risk still exists in Aave, bad debt is managed by the platforms proprietary algorithm which liquidates collateral at pre-defined debt-to-collateral ratios.4

Interest rates are specific to each liquidity pool and are dependent on the amount of funds available at a given time. The algorithm governing interest rates sets low rates when a pools liquidity reserves are plentiful in order to encourage borrowing activity. Conversely, interest rates are raised when a pools reserves fall.

Lenders accrue the majority of the interest paid by borrowers. The remaining interest earned is used to secure the protocol. In 2022, lenders accrued $169m in fees or 89% of the total interest, while users securing the protocol received $21m, the remaining 11%.5

Flash Loans: Borrowing Without Pledging Collateral

Flash loans allow any user to access large uncollateralized loans, but the borrowed assets must be returned plus a fee within a single transaction. The fee is 0.09% of the flash loan volume, which is a source of revenue for the Aave protocol.6

To execute a flash loan, a user requests the Aave protocol to transfer assets from a pool, or from multiple pools to a smart contract. The smart contract is usually purpose-built to carry out a specific task, such as a pure arbitrage strategy. After the specific transaction is executed, the smart contract returns the principal to the pool.

Once received, Aave audits the deposit to ensure the principal and loan fee have been repaid in full. Because this process happens within a single transaction, Aave is able to reverse the entirety of the transaction before any data is settled on the blockchain should any shortfall materialize.

Flash loans are complex and require technical knowledge and programming proficiency. However, they are a unique and powerful tool that level the financial playing field by enabling skilled users to profit from opportunities that are typically reserved for large financial institutions.

The AAVE token is a critical component of the protocols built-in insurance mechanism called the Safety Module (SM).7 The SM is a smart contract containing AAVE tokens that are staked by users in exchange for AAVE-denominated rewards. This reserve of tokens is used primarily as a liquidity backstop for loan pools in the rare occurrence of bad debt. While Aaves liquidation algorithm is highly effective at reducing bad debt, such scenarios may arise from thin liquidity for a particular token used as collateral, for example. Thin liquidity can lead to significant price slippage during the auto-liquidation process and can result in fewer funds returned to the pool than borrowed. In these scenarios, the SM can sell a portion of the AAVE tokens held in its smart contract on the open market in order to make the pool whole.

Users are incentivized to stake AAVE in the Safety Module. The rewards, called Safety Incentives, consist of AAVE tokens as well as the portion of accrued yield and fees not distributed to lenders. The clever design of the SM creates a positive feedback loop:

Aaves on-chain governance system allows token holders and stakers to participate in the platforms decision-making. Governance voting occurs at both the protocol and pool level, as every pool has independent parameters. AAVE holders can vote on:

Aaves focus on security, transparency, and ease of use has helped it attract a large and growing user base. The protocols upgrades demonstrate a commitment to continuous improvement and innovation. In January 2023, Aave governance unanimously approved the V3 version of the protocol to go live on Ethereum. V3 unlocks new technical features and benefits including capital efficiency, collateral options, and gas optimization improvements.8

In July 2022, Aave users also approved a proposal to launch GHO, a U.S. dollar-pegged stablecoin. Users will be able to mint the stablecoin by depositing an excess amount of accepted cryptocurrencies into a smart contract in a process similar to an overcollateralized loan. With GHOs potential to attract more liquidity providers to the protocol, the AAVE token could benefit from increased adoption and protocol fees.

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Aave: The Basics Global X ETFs - Global X